/* SPDX-License-Identifier: GPL-2.0-or-later */ #include #include #include #include #include #include #include #include #include #include #include /** * Find all device of a given vendor and type for the specified socket. * The function iterates over all PCI domains of the specified socket * and matches the PCI vendor and device ID. * * @param socket The socket where to search for the device. * @param vendor A PCI vendor ID (e.g. 0x8086 for Intel). * @param device A PCI device ID. * @param from The device pointer to start search from. * * @return Pointer to the device struct. When there are multiple device * instances, the caller should continue search upon a non-NULL match. */ struct device *dev_find_all_devices_on_socket(uint8_t socket, u16 vendor, u16 device, struct device *from) { return dev_find_all_devices_on_stack(socket, XEONSP_STACK_MAX, vendor, device, from); } /* * Find device of a given vendor and type for the specified socket. * The function will return at the 1st match. */ struct device *dev_find_device_on_socket(uint8_t socket, u16 vendor, u16 device) { return dev_find_all_devices_on_socket(socket, vendor, device, NULL); } static int filter_device_on_stack(struct device *dev, uint8_t socket, uint8_t stack, u16 vendor, u16 device) { struct device *domain = dev_get_pci_domain(dev); if (!domain) return 0; if (dev->path.type != DEVICE_PATH_PCI) return 0; union xeon_domain_path dn; dn.domain_path = domain->path.domain.domain; if (socket != XEONSP_SOCKET_MAX && dn.socket != socket) return 0; if (stack != XEONSP_STACK_MAX && dn.stack != stack) return 0; if (vendor != XEONSP_VENDOR_MAX && dev->vendor != vendor) return 0; if (device != XEONSP_DEVICE_MAX && dev->device != device) return 0; return 1; }; /** * Find all device of a given vendor and type for the specified socket and stack. * * @param socket The socket where to search for the device. * XEONSP_SOCKET_MAX indicates any socket. * @param stack The stack where to search for the device. * XEONSP_STACK_MAX indicates any stack. * @param vendor A PCI vendor ID (e.g. 0x8086 for Intel). * XEONSP_VENDOR_MAX indicates any vendor. * @param device A PCI device ID. * XEONSP_DEVICE_MAX indicates any device. * @param from The device pointer to start search from. * * @return Pointer to the device struct. When there are multiple device * instances, the caller should continue search upon a non-NULL match. */ struct device *dev_find_all_devices_on_stack(uint8_t socket, uint8_t stack, u16 vendor, u16 device, struct device *from) { if (!from) from = all_devices; else from = from->next; while (from && (!filter_device_on_stack(from, socket, stack, vendor, device))) from = from->next; return from; } /** * Find all device of a given vendor and type for the specific domain * Only the direct child of the input domain is iterated * * @param domain Pointer to the input domain * @param vendor A PCI vendor ID * XEONSP_VENDOR_MAX indicates any vendor * @param vendor A PCI device ID * XEONSP_DEVICE_MAX indicates any vendor * @param from The device pointer to start search from. * * @return Pointer to the device struct. When there are multiple device * instances, the caller should continue search upon a non-NULL match. */ struct device *dev_find_all_devices_on_domain(struct device *domain, u16 vendor, u16 device, struct device *from) { struct device *dev = from; while ((dev = dev_bus_each_child(domain->downstream, dev))) { if (vendor != XEONSP_VENDOR_MAX && dev->vendor != vendor) continue; if (device != XEONSP_DEVICE_MAX && dev->device != device) continue; break; } return dev; } /** * Returns the socket ID where the specified device is connected to. * This is an integer in the range [0, CONFIG_MAX_SOCKET). * * @param dev The device to look up * * @return Socket ID the device is attached to, negative number on error. */ int iio_pci_domain_socket_from_dev(struct device *dev) { struct device *domain; union xeon_domain_path dn; if (dev->path.type == DEVICE_PATH_DOMAIN) domain = dev; else domain = dev_get_pci_domain(dev); if (!domain) return -1; dn.domain_path = domain->path.domain.domain; return dn.socket; } /** * Returns the stack ID where the specified device is connected to. * This is an integer in the range [0, MAX_IIO_STACK). * * @param dev The device to look up * * @return Stack ID the device is attached to, negative number on error. */ int iio_pci_domain_stack_from_dev(struct device *dev) { struct device *domain; union xeon_domain_path dn; if (dev->path.type == DEVICE_PATH_DOMAIN) domain = dev; else domain = dev_get_pci_domain(dev); if (!domain) return -1; dn.domain_path = domain->path.domain.domain; return dn.stack; } void create_domain(const union xeon_domain_path dp, struct bus *upstream, int bus_base, int bus_limit, const char *type, struct device_operations *ops, const size_t pci_segment_group) { struct device_path path; init_xeon_domain_path(&path, dp.socket, dp.stack, bus_base); struct device *const domain = alloc_find_dev(upstream, &path); if (!domain) die("%s: out of memory.\n", __func__); domain->ops = ops; iio_domain_set_acpi_name(domain, type); struct bus *const bus = alloc_bus(domain); bus->secondary = bus_base; bus->subordinate = bus_base; bus->max_subordinate = bus_limit; bus->segment_group = pci_segment_group; } /* Attach stack as domains */ void attach_iio_stacks(void) { const IIO_UDS *hob = get_iio_uds(); union xeon_domain_path dn = { .domain_path = 0 }; if (!hob) return; struct bus *root_bus = dev_root.downstream; for (int s = 0; s < CONFIG_MAX_SOCKET; ++s) { if (!soc_cpu_is_enabled(s)) continue; for (int x = 0; x < MAX_LOGIC_IIO_STACK; ++x) { const xSTACK_RES *ri = &hob->PlatformData.IIO_resource[s].StackRes[x]; const size_t seg = hob->PlatformData.CpuQpiInfo[s].PcieSegment; if (ri->BusBase > ri->BusLimit) continue; /* Prepare domain path */ dn.socket = s; dn.stack = x; create_xeonsp_domains(dn, root_bus, ri, seg); } } } bool is_pcie_domain(struct device *dev) { if ((!dev) || (dev->path.type != DEVICE_PATH_DOMAIN)) return false; return strstr(dev->name, DOMAIN_TYPE_PCIE); } bool is_ioat_domain(struct device *dev) { if ((!dev) || (dev->path.type != DEVICE_PATH_DOMAIN)) return false; return (strstr(dev->name, DOMAIN_TYPE_CPM0) || strstr(dev->name, DOMAIN_TYPE_CPM1) || strstr(dev->name, DOMAIN_TYPE_DINO) || strstr(dev->name, DOMAIN_TYPE_HQM0) || strstr(dev->name, DOMAIN_TYPE_HQM1)); } bool is_ubox_domain(struct device *dev) { if ((!dev) || (dev->path.type != DEVICE_PATH_DOMAIN)) return false; return (strstr(dev->name, DOMAIN_TYPE_UBX0) || strstr(dev->name, DOMAIN_TYPE_UBX1)); } bool is_cxl_domain(struct device *dev) { if ((!dev) || (dev->path.type != DEVICE_PATH_DOMAIN)) return false; return strstr(dev->name, DOMAIN_TYPE_CXL); }